Department of Neurobiology and Anatomy, Marion Murray Spinal Cord Research Center, Drexel University College of Medicine, Philadelphia, Pennsylvania, USA.
Department of Biology, Drexel University, Philadelphia, Pennsylvania, USA.
J Neurotrauma. 2021 Aug 1;38(15):2186-2191. doi: 10.1089/neu.2020.7504. Epub 2021 Feb 1.
After a severe, high-level spinal cord injury (SCI), plasticity to intraspinal circuits below injury results in heightened spinal sympathetic reflex activity and detrimentally impacts peripheral organ systems. Such sympathetic hyperreflexia is immediately apparent as an episode of autonomic dysreflexia (AD), a life-threatening condition characterized by sudden hypertension and reflexive bradycardia following below-level sensory inputs; for example, pressure sores or impacted fecal matter. Over time, plasticity within the spinal sympathetic reflex (SSR) circuit contributes to the progressive intensification of AD events, as the frequency and severity of AD events increase greatly beginning ∼2 weeks post-injury (wpi). The neuroimmune system has been implicated in driving sympathetic hyperreflexia, as inhibition of the cytokine soluble tumor necrosis factor-alpha (sTNFα) using the biological mimetic XPro1595 beginning within days post-SCI has been shown to attenuate the development of AD. Here, we sought to further understand the effective therapeutic time window of XPro1595 to diminish sympathetic hyperreflexia, as indicated by AD. We delayed the commencement of continuous intrathecal administration of XPro1595 until 2 weeks after a complete, thoracic level 3 injury in adult rats. We examined the severity of colorectal distension-induced AD biweekly. We found that initiation of sTNFα inhibition at 2 wpi does not attenuate the severity or intensification of sympathetic hyperreflexia compared with saline-treated controls. Coupled with previous data from our group, these findings suggest that central sTNFα signaling must be targeted prior to 2 weeks post-SCI in order to decrease sympathetic hyperreflexia.
在严重的高水平脊髓损伤(SCI)后,损伤以下的脊髓内电路的可塑性导致脊髓交感反射活动增强,并对周围器官系统造成不利影响。这种交感反射亢进立即表现为自主神经反射异常(AD)发作,这是一种危及生命的状况,其特征是在低级别的感觉输入后,突然出现高血压和反射性心动过缓;例如,压疮或受阻的粪便。随着时间的推移,脊髓交感反射(SSR)回路内的可塑性导致 AD 事件的逐渐加剧,因为 AD 事件的频率和严重程度在损伤后约 2 周(wpi)开始大大增加。神经免疫系统被认为是驱动交感反射亢进的原因,因为使用生物模拟物 XPro1595 抑制细胞因子可溶性肿瘤坏死因子-α(sTNFα),自 SCI 后几天开始,已被证明可减轻 AD 的发展。在这里,我们试图进一步了解 XPro1595 减少交感反射亢进的有效治疗时间窗,如 AD 所示。我们延迟了 XPro1595 的连续鞘内给药开始时间,直到成年大鼠完全性胸 3 水平损伤后 2 周。我们每两周检查一次结直肠扩张诱导的 AD 的严重程度。我们发现,与生理盐水处理的对照组相比,在 2 wpi 开始抑制 sTNFα 并不能减轻交感反射亢进的严重程度或加剧程度。结合我们小组以前的数据,这些发现表明,为了减少交感反射亢进,必须在 SCI 后 2 周之前靶向中枢 sTNFα 信号。